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Course Criteria
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5.00 Credits
Prerequisites: MAT 1013 (diploma), MAT 1101, MAT 1111 or MAT 1111 (A.A.S.). This course introduces the student to the basic laws of physics, with specific applications for health science students. Topics include: basic Newtonian mechanics; static and dynamic fluid concepts; heat and temperature; basic principles of waves, light, and sound, basic principles of electricity and magnetism to include electrical safety. (Replaces AHS 156 eff 200903). 09242008
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5.00 Credits
Prerequisite: Program admission level math achievement. Provides an introduction to basic chemical principles and concepts which explain the behavior of matter. Topics include: measurement and units; atomic structure; chemical bonding; physical states of matter; nomenclature; stoichiometry; liquid mixtures; organic chemistry; and biochemistry. (Replaces AHS 157 eff 200903). 09242008
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5.00 Credits
Prerequisite: AHS 1011. This course is designed to be an advanced level course in human anatomy and physiology specific for Radiologic Technology students. The information covered will be presented in content and context that relates to the medical imaging of the human body and its function. The material in the text will be found in the two texts and will build on knowledge gained from the prerequisite class AHS 1011.
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4.00 Credits
Familiarizes students with the production processes a flexible manufacturing system may perform. Topics include: modern manufacturing concepts; product manufacturing stages; manufacturing specifications and quality control; industrial materials; materials testing; casting and molding processes; materials cutting, removal, and forming processes; welding and joining processes; and parts assembly.
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3.00 Credits
Develops basic microcomputer skills for solving engineering technology and production problems found in flexible manufacturing system environments. Topics include: computer programming, computer hardware and software, BASIC or other structured language programming, and computer operating systems.
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4.00 Credits
Explores basic robotic concepts. Studies robots in typical application environments. Topics include: robot history and fundamentals, robot classification, power sources, robot applications in the workplace, robot control techniques, path control, end of arm tooling, robot operation and robot controllers, controller architecture in a system, robotic language programming, and human interface issues.
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3.00 Credits
Prerequisite: AMF 103. Provides an overview of machine tool technology. Topics include: benchwork operations, CNC fundamentals, CNC mill programming and operation, and CNC lathe programming and operation.
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3.00 Credits
Prerequisite: PSC 150 (diploma), or PHY 1111 (A.A.S.). Emphasizes mechanical techniques for maintaining, troubleshooting, installing, and repairing drives, conveyor systems, and valves. Topics include: gas laws; pressure and force calculations; hydraulic systems vs. pneumatic systems; cylinders, pressure controls, and system controls; hydraulic and pneumatic symbology; hydraulic and pneumatic system layout; interfacing hydraulic or pneumatic systems with other systems; applied mechanisms; belt, chain, and gear drives; drive train components; valves; and conveyor systems.
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5.00 Credits
Prerequisite: AMF 110. Studies linear integrated circuits. Topics include: linear I.C. devices, differential amplifiers, I.C. operational amplifiers, active filter fundamentals, I.C. timers, special linear I.C. devices/circuits, power supply regulation, single supply circuits, solid state control devices/circuits, switches and relays, transducers, final control elements and servo amplifiers, servo-mechanisms, interfacing and signal conditioning, digital to analog conversion, analog to digital conversion, D/A and A/D converters with microprocessors, and industrial timing.
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4.00 Credits
Prerequisites: IFC 102; ENG 1010 (diploma), or ENG 1101 (A.A.S.). Explores active device basic principles, including low frequency applications and troubleshooting. Topics include: semiconductor fundamentals, diode applications, BJT characteristics, bipolar transistor circuits, and unipolar devices.
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